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由已饱食大鼠进食刺激的学习性食物线索选择性诱导下丘脑食欲素/下丘脑分泌素神经元,而非黑皮质素-4 神经元的 Fos 表达。

Selective Fos induction in hypothalamic orexin/hypocretin, but not melanin-concentrating hormone neurons, by a learned food-cue that stimulates feeding in sated rats.

机构信息

Department of Psychology, Boston College, 140 Commonwealth Avenue, Chestnut Hill, MA 02467, United States.

出版信息

Neuroscience. 2012 Nov 8;224:70-80. doi: 10.1016/j.neuroscience.2012.08.036. Epub 2012 Aug 23.

DOI:10.1016/j.neuroscience.2012.08.036
PMID:22922124
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3689536/
Abstract

Associative learning can enable cues from the environment to stimulate feeding in the absence of physiological hunger. How learned cues are integrated with the homeostatic regulatory system is unknown. Here we examined whether the underlying mechanism involves the hypothalamic orexigenic neuropeptide regulators orexin/hypocretin (ORX) and melanin-concentrating hormone (MCH). We used a Pavlovian conditioning procedure to train food-restricted rats to associate a discrete cue, a tone, with food pellets distinct from their regular lab chow diet. Rats in the conditioned group (Paired) received presentations of a tone immediately prior to food delivery, while the rats in the control group (Unpaired) received random presentations of the same number of tones and food pellets. After conditioning rats were allowed ad libitum access to lab chow for at least 10days before testing. At test sated rats were presented with the tones in their home cages, and then one group was allowed to consume food pellets, while another group was left undisturbed until sacrifice for Fos induction analysis. The tone cue stimulated food consumption in this setting; rats in the Paired group consumed larger amounts of food pellets than rats in the Unpaired group. To examine Fos induction we processed the brain tissue using fluorescent immunohistochemistry methods for combined detection of Fos and characterization of ORX and MCH neurons. We found a greater percentage of ORX and Fos double-labeled neurons in the Paired compared to the Unpaired condition, specifically in the perifornical area. In contrast, there were very few MCH neurons with Fos induction in both the Paired and Unpaired conditions. Thus, the food-cue selectively induced Fos in ORX but not in MCH neurons. These results suggest a role for ORX in cue-induced feeding that occurs in the absence of physiological hunger.

摘要

关联学习可以使环境线索在没有生理饥饿的情况下刺激进食。但是,学习线索与体内平衡调节系统如何整合还不清楚。在这里,我们研究了潜在的机制是否涉及下丘脑食欲肽调节激素食欲素/下丘脑泌素(ORX)和黑色素浓缩激素(MCH)。我们使用巴甫洛夫条件反射程序训练限制食物的大鼠将离散的提示(音调)与不同于其常规实验室饲料的食物颗粒联系起来。在条件组(配对组)中,在提供食物之前立即呈现音调,而在对照组(未配对组)中,随机呈现相同数量的音调和食物颗粒。在条件反射后,让大鼠至少在 10 天内自由摄入实验室饲料,然后进行测试。在测试中,给吃饱的大鼠提供他们在自己笼子中的音调,然后允许一组大鼠进食食物颗粒,而另一组大鼠则在未受干扰的情况下直至处死,以进行 Fos 诱导分析。在这种情况下,音调提示刺激了食物的消耗;与未配对组相比,配对组的大鼠消耗了更多的食物颗粒。为了检查 Fos 诱导,我们使用荧光免疫组织化学方法处理脑组织,以联合检测 Fos 和 ORX 和 MCH 神经元的特征。我们发现,与未配对条件相比,配对条件下的 ORX 和 Fos 双标记神经元的比例更高,特别是在旁室周围区。相比之下,在配对和未配对条件下,仅有很少的 MCH 神经元诱导 Fos。因此,食物线索选择性地诱导了 ORX 神经元而不是 MCH 神经元中的 Fos。这些结果表明,ORX 在没有生理饥饿的情况下参与了线索诱导的进食。

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